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Synthesis and characterization of natural and modified antifreeze glycopeptides: glycosylated foldamers
Authors:Lilly Nagel  Carolin Plattner  Carsten Budke  Zsuzsanna Majer  Arthur L. DeVries  Thomas Berkemeier  Thomas Koop  Norbert Sewald
Affiliation:1.Organic and Bioorganic Chemistry,Bielefeld University,Bielefeld,Germany;2.Physical Chemistry,Bielefeld University,Bielefeld,Germany;3.Institute of Chemistry,E?tv?s Loránd University,Budapest 112,Hungary;4.Department of Animal Biology,University of Illinois at Urbana-Champaign,Urbana,USA
Abstract:In Arctic and Antarctic marine regions, where the temperature declines below the colligative freezing point of physiological fluids, efficient biological antifreeze agents are crucial for the survival of polar fish. One group of such agents is classified as antifreeze glycoproteins (AFGP) that usually consist of a varying number (n = 4–55) of [AAT] n -repeating units. The threonine side chain of each unit is glycosidically linked to β-d-galactosyl-(1 → 3)-α-N-acetyl-d-galactosamine. These biopolymers can be considered as biological antifreeze foldamers. A preparative route for stepwise synthesis of AFGP allows for efficient synthesis. The diglycosylated threonine building block was introduced into the peptide using microwave-enhanced solid phase synthesis. By this versatile solid phase approach, glycosylated peptides of varying sequences and lengths could be obtained. Conformational studies of the synthetic AFGP analogs were performed by circular dichroism experiments (CD). Furthermore, the foldamers were analysed microphysically according to their inhibiting effect on ice recrystallization and influence on the crystal habit.
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